KR20230155776A - Dental implant support structure - Google Patents

Abstract

The present invention relates to a dental implant support structure. Specifically, the present invention relates to a dental implant support structure which not only facilitates the processing of dental implant, but also reduces the processing time and cost of dental implant, improves the dimensional accuracy of manufactured dental implant, and enables precise occlusion of teeth. The dental implant support structure comprises: a support plate to which an artificial tooth or a plaster cast thereof can be attached; and a base member fastened to a dental articulator.

Description

Artificial tooth support structure {Dental implant support structure}

The present invention relates to an artificial tooth support structure. Specifically, the present invention not only facilitates the processing of artificial teeth, but also reduces the processing time and cost of artificial teeth, improves the dimensional accuracy of manufactured artificial teeth, and enables precise occlusion of teeth. It relates to tooth supporting structures.

Figure 1 schematically shows a conventional artificial tooth support structure coupled to a dental articulator, and Figure 2 schematically shows an exploded perspective view of the artificial tooth support structure shown in Figure 1.

As shown in FIG. 1, the conventional artificial tooth support structure 20 can be coupled to the upper and lower parts of the articulator 10, that is, at positions corresponding to the positions of the upper and lower jaws of the human body, and as shown in FIG. 2 Likewise, the artificial tooth support structure 20 has a lower plate 21 fastened to the articulator 10 and a plurality of pins each inserted into a plurality of pin holes disposed on the lower plate 21 are disposed on the lower surface. It may include an artificial tooth support plate 22 to which an artificial tooth or a plaster model thereof is attached to the upper surface.

A dental technician can manufacture artificial teeth through steps a) to h) below using the articulator 10 and the artificial tooth support structure 20.

a) Taking an impression of the tooth to be replaced with an artificial tooth or the extracted gum and adjacent teeth using impression material,

b) manufacturing plaster model teeth using tooth impressions,

c) fixing the plaster model teeth by bonding them onto the artificial tooth support plate (22) of the artificial tooth support structure (20) coupled to the articulator (10),

d) cutting the part of the plaster model teeth corresponding to the tooth to be replaced or implanted together with the artificial tooth support plate 22;

e) separating the cut artificial tooth support plate 22 from the lower plate 22 of the artificial tooth support structure 20,

f) replacing the plaster model teeth on the cut artificial tooth support plate 22 with material for artificial teeth,

g) processing the material for artificial teeth, and

h) A step of inspecting occlusion using the articulator 10 while the artificial tooth support plate 21 on which the artificial teeth are formed is coupled to the lower plate 22.

In particular, the dental technician processes the artificial tooth by repeating steps g) and h) and ultimately forms the artificial tooth through the process of checking moment by moment whether or not the occlusion is according to the degree of processing, so the artificial tooth support plate (21) ) is repeatedly coupled to and separated from the lower plate 22.

Therefore, in order to improve the dimensional accuracy of artificial teeth formed through this method and precisely check the occlusion of the teeth, the articulator 10 and the artificial tooth support structure 20, that is, the articulator 10 and the artificial tooth support structure 20 )'s lower plate (21), the lower plate (21) and the artificial tooth support plate (22), and the artificial tooth support plate (22) and the plaster model tooth or artificial tooth material must be able to be firmly and densely bonded to each other. The lower plate 21 and the artificial tooth support plate 22 must be easily removable from the artificial tooth support structure 20.

If the lower plate 21 and the artificial tooth support plate 22 move slightly while combined, the dimensional accuracy of the artificial tooth formed using this decreases and the occlusion of the teeth cannot be precisely confirmed. If the lower plate 21 and the artificial tooth support plate 22 are not easily attached and detached from each other, the processing time and processing cost of the artificial tooth may increase.

Therefore, in the past, the lower plate 21 is completely fixed to the articulator with plaster or adhesive. In this case, when manufacturing one artificial tooth and then another artificial tooth, the artificial tooth support plate 22 is used. ) only needs to be replaced, but if the lower plate 21 and the artificial tooth support plate 22 are manufactured separately rather than as a pair, the connection between the lower plate 21 and the artificial tooth support plate 22 is strong. And it may not be detailed.

In addition, among the conventional artificial tooth support structures 20, the artificial tooth support plate 22 is made of gypsum material in consideration of adhesion to the plaster model tooth and machinability for easy cutting. This gypsum artificial tooth support plate 22 There is a problem that the dimensional accuracy of artificial teeth is reduced because it is easy to be deformed or damaged during repeated attachment and detachment, and the manufacturing cost is high, which increases the processing cost of artificial teeth.

Therefore, not only is the processing of artificial teeth easy, but it can also reduce the processing time and cost of artificial teeth, improve the dimensional accuracy of manufactured artificial teeth, and enable precise occlusion of teeth, a new type of artificial tooth. Support structures are urgently needed.

The purpose of the present invention is to provide an artificial tooth support structure that facilitates the processing of artificial teeth.

In addition, the purpose of the present invention is to provide an artificial tooth support structure that can reduce the processing time and processing cost of artificial teeth.

Additionally, the purpose of the present invention is to provide an artificial tooth support structure that improves the dimensional accuracy of manufactured artificial teeth and enables precise occlusion of teeth.

In order to solve the above problems, the present invention,

An artificial tooth support structure, comprising a support plate to which artificial teeth or a plaster model thereof can be attached, and a base member fastened to a dental articulator, and a dowel pin fastening portion of the base member is inserted into the lower surface of the support plate. An artificial tooth support structure is provided, including a dowel pin to be used, and the support plate is made of foam resin.

Here, an artificial tooth support structure is provided, wherein the foamed resin includes a polystyrene foamed resin.

In addition, the polystyrene foam resin provides an artificial tooth support structure, characterized in that it is formed by injection in a state containing 10 to 45% by weight of a chemical foaming agent based on the total weight of the polystyrene foam resin.

Furthermore, the polystyrene foam resin provides an artificial tooth support structure, characterized in that the foaming degree is 15 to 35%.

Meanwhile, the dowel pin provides an artificial tooth support structure, wherein the dowel pin is made of a plastic material.

Here, an artificial tooth support structure is provided, wherein the plastic material includes acrylonitrile-butadiene styrene (ABS) resin.

In addition, the dowel pin is an artificial tooth support structure, characterized in that one or more plating layers selected from the group consisting of nickel plating, chrome plating, and nickel-chrome plating are formed on the surface made of acrylonitrile-butadiene styrene (ABS) resin. provides.

Furthermore, an artificial tooth support structure is provided, wherein the plating layer has a thickness of 15 to 25 ㎛.

Meanwhile, a plurality of holes are formed in the upper surface of the base member, a support pin is inserted into each of the plurality of holes and then fixed by a fixing pin, and a support pin of the base member is inserted into the lower surface of the support plate. An artificial tooth support structure is provided, characterized in that it additionally includes a support pin fastening groove.

Here, an artificial tooth support structure is provided, wherein the empty space below the base member is filled with gypsum material.

The artificial tooth support structure according to the present invention is made of a new material, which has the excellent effect of facilitating the processing of artificial teeth and at the same time reducing the processing time and processing cost of artificial teeth.

In addition, the artificial tooth support structure according to the present invention has the excellent effect of improving the dimensional precision of the artificial tooth manufactured by strong and dense bonding of the component parts and enabling precise occlusion of the teeth.

Figure 1 schematically shows an occlusal system in which a conventional artificial tooth support structure is combined with a dental articulator.
Figure 2 schematically shows an exploded perspective view of the artificial tooth support structure shown in Figure 1.
Figure 3 schematically shows the configuration of an artificial tooth support structure according to the present invention.
FIG. 4 schematically shows the lower surface of the support plate in FIG. 3.
FIG. 5 schematically shows the configuration of the base member in FIG. 3.

Hereinafter, preferred embodiments of the present invention will be described in detail. However, the present invention is not limited to the embodiments described herein and may be embodied in other forms. Rather, the embodiments introduced herein are provided so that the disclosure will be thorough and complete, and so that the spirit of the invention can be sufficiently conveyed to those skilled in the art. Like reference numerals refer to like elements throughout the specification.

Figure 3 schematically shows the configuration of the artificial tooth support structure according to the present invention, Figure 4 schematically shows the lower surface of the support plate in Figure 3, and Figure 5 is a configuration diagram of the base member in Figure 3. It is schematically shown.

As shown in Figure 3, the artificial tooth support structure according to the present invention is fastened to a support plate 100 and a dental articulator to which the artificial tooth or its plaster model can be firmly adhered, and is made of metal or plastic material and has a lower part. may include a base member 200 securing an empty space that can be filled with plaster material.

In addition, as shown in FIGS. 4 and 5, the lower surface of the support plate 100 may include a dowel pin 110 to be inserted into the dowel pin fastening portion 210 of the base member 200, Additionally, it may include a support pin fastening groove 120 into which the support pin 240 of the base member 200 is inserted.

And, on the upper surface of the base member 200, a plurality of holes into which the dowel pin fastening portion 210 holding the hole into which the dowel pin 110 is inserted is inserted is arranged on the outside, and the support is provided on the inside of the hole. A plurality of holes into which the pin 240 is inserted are arranged.

Here, the dowel pin fastening portion 210 is fixed by the fixing ring 220 after being inserted into each of the plurality of holes, and the diameter of the hole into which the dowel pin 110 is inserted decreases toward the bottom, so that the dowel pin When (110) is inserted into the hole, a certain length is inserted and then it is no longer inserted due to the reduced diameter.

Additionally, the support pin 240 may be inserted into each of the plurality of holes and then fixed by the fixing pin 230. For example, the support pin 240 is provided with a groove into which the protruding pin of the fixing pin 230 can be inserted, so that the protruding pin of the fixing pin 230 is inserted into the groove of the support pin 240. They can be connected to each other in a way that works.

Accordingly, in the artificial tooth support structure according to the present invention, the support plate 100 is coupled to the base member 200, and an artificial tooth or a plaster model thereof is coupled to the upper surface of the support plate 100, and the operator Among the artificial teeth or plaster models thereof, the artificial tooth to be processed or its plaster model is cut together with the support plate 100, and the artificial tooth to be processed or its plaster model is combined and cut together with the support plate 100. ) is separated from the base member 200 to process the artificial tooth or its plaster model.

In particular, the support plate 100 may be made of foamed resin, for example, polystyrene foamed resin. The polystyrene foam resin is injected with 10 to 45% by weight of a chemical foaming agent based on the total weight, so that the degree of foaming, that is, the volume occupied by pores based on the total volume, can be adjusted to 15 to 35%.

Here, if the foaming degree of the support plate 100 is less than 15%, the machinability is insufficient and workability is reduced, whereas if it is more than 35%, the strength is insufficient and deformation or damage may occur during work.

This support plate 100 has a cutting ability similar to that of a conventional plaster support plate, so it is easy to cut and can maintain sufficient adhesion to an artificial tooth or its plaster model through an adhesive. In addition, support plates manufactured through injection of polystyrene foam resin have a lower manufacturing cost compared to support plates made of conventional gypsum materials.

Furthermore, the dowel pin 110 for the support structure may be made of a plastic material such as acrylonitrile-butadiene styrene (ABS) resin, and a plating layer such as nickel plating, chrome plating, or nickel-chrome plating is formed on the surface to make the plastic. By improving the insufficient hardness of the material, damage can be avoided or minimized when the dowel pin 110 is repeatedly attached and detached from the dowel pin fastening portion 210, and the friction coefficient can be reduced to facilitate attachment and detachment. Here, the thickness of the plating layer may be 15 to 25 ㎛.

Meanwhile, the fixing pin 230 and the support pin 240 are respectively a plaster material filled in the empty space at the bottom of the base member 200 and the support plate 100 coupled to the upper part of the base member 200. By supporting, it performs the function of minimizing expansion of the plaster material when it hardens.

As a result, the artificial tooth support structure according to the present invention can facilitate the processing of artificial teeth through a new fastening method, structure, and material, while reducing the processing time and processing cost of artificial teeth, and providing a strong and dense combination of component parts. It has an excellent effect of improving the dimensional precision of artificial teeth manufactured by and enabling precise occlusion of teeth.

Although this specification has been described with reference to preferred embodiments of the present invention, those skilled in the art may make various modifications and changes to the present invention without departing from the spirit and scope of the present invention as set forth in the claims described below. It will be possible to implement it. Therefore, if the modified implementation basically includes the elements of the claims of the present invention, it should be considered to be included in the technical scope of the present invention.

100: support plate 200: base member

Claims (10)

As an artificial tooth support structure,
A support plate to which an artificial tooth or a plaster cast thereof can be attached, and
It includes a base member fastened to a dental articulator,
The lower surface of the support plate includes a dowel pin to be inserted into the dowel pin fastening portion of the base member,
An artificial tooth support structure, wherein the support plate is made of foam resin. According to paragraph 1,
An artificial tooth support structure, wherein the foamed resin includes a polystyrene foamed resin. According to paragraph 2,
The polystyrene foam resin is an artificial tooth support structure, characterized in that it is formed by injection in a state containing 10 to 45% by weight of a chemical foaming agent based on the total weight of the polystyrene foam resin. According to paragraph 3,
An artificial tooth support structure, wherein the polystyrene foam resin has a foaming degree of 15 to 35%. According to any one of claims 1 to 4,
An artificial tooth support structure, wherein the dowel pin is made of a plastic material. According to clause 5,
An artificial tooth support structure, wherein the plastic material includes acrylonitrile-butadiene styrene (ABS) resin. According to clause 6,
The dowel pin is an artificial tooth support structure, characterized in that one or more plating layers selected from the group consisting of nickel plating, chrome plating and nickel-chrome plating are formed on the surface made of acrylonitrile-butadiene styrene (ABS) resin. In clause 7,
An artificial tooth support structure, characterized in that the thickness of the plating layer is 15 to 25 ㎛. According to any one of claims 1 to 4,
A plurality of holes are formed in the upper surface of the base member, and a support pin is inserted into each of the plurality of holes and then fixed by a fixing pin,
An artificial tooth support structure, characterized in that the lower surface of the support plate further includes a support pin fastening groove into which the support pin of the base member is inserted. According to clause 9,
An artificial tooth support structure, characterized in that the empty space below the base member is filled with gypsum material.